Control of Thermal Deflection in Concrete Structures Using Iron-Based Shape Memory Alloys

Control of Thermal Deflection in Concrete Structures Using Iron-Based Shape Memory Alloys

Mitigating the structural damage brought about by thermal expansion is a primary objective in the design of vital concrete infrastructures, such as bridges or buildings. Shape memory alloys (SMAs), through their ability to recover strains through thermal loading-induced phase transformations, offer...

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Main Authors: Edmiston Brady, Davis Allen, Mirsayar Mirmilad, Hartl Darren
Format: Article
Language:English
Published: EDP Sciences 2019-01-01
Series:MATEC Web of Conferences
Online Access:https://www.matec-conferences.org/articles/matecconf/pdf/2019/20/matecconf_tran-set2019_01011.pdf
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spelling doaj-a7077dec14814652aa4445646cc901162021-02-02T04:50:22ZengEDP SciencesMATEC Web of Conferences2261-236X2019-01-012710101110.1051/matecconf/201927101011matecconf_tran-set2019_01011Control of Thermal Deflection in Concrete Structures Using Iron-Based Shape Memory AlloysEdmiston BradyDavis AllenMirsayar MirmiladHartl DarrenMitigating the structural damage brought about by thermal expansion is a primary objective in the design of vital concrete infrastructures, such as bridges or buildings. Shape memory alloys (SMAs), through their ability to recover strains through thermal loading-induced phase transformations, offer a distinct advantage in achieving this design goal as such strain recovery in embedded components could be used to oppose thermal expansion in a surrounding matrix (e.g. concrete). This study seeks to characterize the thermal expansion of system, comprised of an SMA rod embedded in a concrete block undergoing a thermal loading cycle. Characterization is produced through a full factorial analysis, wherein evaluation is performed through the Abaqus unified finite element analysis suite. This preliminary analysis indicates that, while iron-based SMAs show promise in this field due to their low manufacturing costs, their large thermal hysteresis may lead to limited phase transformation in this application.https://www.matec-conferences.org/articles/matecconf/pdf/2019/20/matecconf_tran-set2019_01011.pdf
collection DOAJ
language English
format Article
sources DOAJ
author Edmiston Brady
Davis Allen
Mirsayar Mirmilad
Hartl Darren
spellingShingle Edmiston Brady
Davis Allen
Mirsayar Mirmilad
Hartl Darren
Control of Thermal Deflection in Concrete Structures Using Iron-Based Shape Memory Alloys
MATEC Web of Conferences
author_facet Edmiston Brady
Davis Allen
Mirsayar Mirmilad
Hartl Darren
author_sort Edmiston Brady
title Control of Thermal Deflection in Concrete Structures Using Iron-Based Shape Memory Alloys
title_short Control of Thermal Deflection in Concrete Structures Using Iron-Based Shape Memory Alloys
title_full Control of Thermal Deflection in Concrete Structures Using Iron-Based Shape Memory Alloys
title_fullStr Control of Thermal Deflection in Concrete Structures Using Iron-Based Shape Memory Alloys
title_full_unstemmed Control of Thermal Deflection in Concrete Structures Using Iron-Based Shape Memory Alloys
title_sort control of thermal deflection in concrete structures using iron-based shape memory alloys
publisher EDP Sciences
series MATEC Web of Conferences
issn 2261-236X
publishDate 2019-01-01
description Mitigating the structural damage brought about by thermal expansion is a primary objective in the design of vital concrete infrastructures, such as bridges or buildings. Shape memory alloys (SMAs), through their ability to recover strains through thermal loading-induced phase transformations, offer a distinct advantage in achieving this design goal as such strain recovery in embedded components could be used to oppose thermal expansion in a surrounding matrix (e.g. concrete). This study seeks to characterize the thermal expansion of system, comprised of an SMA rod embedded in a concrete block undergoing a thermal loading cycle. Characterization is produced through a full factorial analysis, wherein evaluation is performed through the Abaqus unified finite element analysis suite. This preliminary analysis indicates that, while iron-based SMAs show promise in this field due to their low manufacturing costs, their large thermal hysteresis may lead to limited phase transformation in this application.
url https://www.matec-conferences.org/articles/matecconf/pdf/2019/20/matecconf_tran-set2019_01011.pdf
work_keys_str_mv AT edmistonbrady controlofthermaldeflectioninconcretestructuresusingironbasedshapememoryalloys
AT davisallen controlofthermaldeflectioninconcretestructuresusingironbasedshapememoryalloys
AT mirsayarmirmilad controlofthermaldeflectioninconcretestructuresusingironbasedshapememoryalloys
AT hartldarren controlofthermaldeflectioninconcretestructuresusingironbasedshapememoryalloys
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